Tree Forest Artificial prelit fiber optic Christmas trees, string lights and outdoor animated decorations.
EZ Tree Prelit Fiber optic, artificial and pre-lit Christmas trees and accessories.
Wikipedia Links
Optical Fiber An optical fiber is a transparent thin fiber, usually made of glass, for transmitting light. Fiber optics is the branch of science and engineering concerned with optical fibers.
Uses of optical fibers:
List Of Fiber Optic Terms This is a list of fiber optic terms derived from the Glossary of Telecommunication Terms published as Federal Standard 1037C. Please see the Federal Standard article for copyright-related issues, as not all parts of the source document are in the public domain.
See also list of optical topics.
Polarization-Maintaining Optical Fiber In telecommunication, a polarization-maintaining optical fiber (PM) is an optical fiber in which the polarization planes of lightwaves launched into the fiber are maintained during propagation with little or no cross-coupling of optical power between the polarization modes.
Note 1: Cross sections of polarization-maintaining optical fibers range from elliptical to rectangular.
Single-Mode Optical Fiber In telecommunication, a single-mode optical fiber is an optical fiber in which only the lowest order bound mode can propagate at the wavelength of interest. Single mode fibers are best at retaining the fidelity of each light pulse over longer distances and exhibit no dispersion caused by multiple modes; thus more information can be transmitted per unit time giving single mode fibers a higher bandwidth in comparison with multi-mode fibers. A typical single mode optical fiber has a core radius of 5-10 micrometers and a cladding radius of 120 micrometers. Currently, data rates of up to 1 Gigabits/second are possible at distances of 60 km and over 6 Gigabits/second at distances of up to 10km.
Multi-Mode Optical Fiber Multi-mode optical fiber (or multi-mode fiber) is a type of optical fiber mostly used for shorter distances, e.g. on campus. It can carry 100 Mbit/s for typical campus distances; the actual maximum speed (given the right electronics) depends upon the actual distance. It is easier to connect to than single-mode optical fiber, but its limit on speed x distance is lower. Multi-mode fiber has a larger center core than single-mode fiber.